Synchronization of multidimensional data in a multimaster synchronization environment with prediction

1. A method for synchronizing versions of data derived from multidimensional data of a server node to a node of a plurality of nodes via one or more networks in a multi-master synchronization environment, comprising: receiving a request, from the node, for at least one version of data derived from the multidimensional data via a multimaster synchronization protocol including receiving synchronization knowledge from the node including synchronization metadata representing corresponding versions for the data derived from the multidimensional data represented on the node, wherein representation of the synchronization knowledge is independent of data type; comparing the synchronization knowledge from the node with synchronization knowledge of the server node including synchronization metadata representing corresponding versions for the data represented on the server node; based on the comparing, transmitting synchronization updates to the node corresponding to the at least one version of the data requested by the node to model a delivery of N-dimensional data as Y-dimensional data; predictively determining at least one next version corresponding to the synchronization updates that is likely to be requested by the node after requesting the at least one version of the data requested by the node; and based on the predictively determining, performing a transform of the at least one version of the data corresponding to the synchronization updates requested by the node from an N-dimensional representation to a Y-dimensional representation, wherein N is an integer different than Y.

2. The method of claim 1 , wherein the predictively determining includes pre-computing the at least one next version from the multidimensional data.

3. The method of claim 1 , wherein the predictively determining includes predictively determining at least one next version having a different qualitative characteristic from the at least one version of the data requested by the node.

4. The method of claim 1 , further comprising: transmitting, according to the multimaster synchronization protocol, the at least one next version of the data to the node without waiting for a request for the at least one next version from the node.

5. A node device of a plurality of nodes connectable via one or more networks that synchronizes a set of Y-dimensional objects between the node and another node of the plurality of nodes in a multi-master synchronization environment, the node device including at least one processor coupled to a machine-readable non-transitory storage medium, wherein the set of Y-dimensional objects are each a version computed from multidimensional data, comprising: a synchronization component configured to, in response to an application or service initiating at least one request for a set of Y-dimensional objects from the other node, to model a delivery of N-dimensional data as Y-dimensional data, N being a different integer than Y, where the set of Y-dimensional objects are derived from N-dimensional data on the other node, synchronize between the node and the other node of the plurality of nodes with respect to the Y-dimensional objects requested by the application or service, the synchronization component including: a synchronization communications component configured to initiate synchronization with the other node via a multimaster synchronization protocol that defines, independent of data type, metadata structure for a knowledge exchange between the other node and the node regarding the set of Y-dimensional objects, to transmit to the other node a request to synchronize with at least one of the requested Y-dimensional objects based on the synchronization protocol, and to receive external knowledge of the set of Y-dimensional objects from the other node in response including other node object versioning information corresponding to the set of Y-dimensional objects represented on the other node, wherein the requested Y-dimensional objects are generated by the other node from the N-dimensional data where the other node has no prior knowledge of the requested Y-dimensional objects; and a synchronization analysis component configured to update local knowledge of the set of Y-dimensional objects represented on the node and corresponding node object versioning information by comparing the external knowledge of the set of Y-dimensional objects including the corresponding other node object versioning information and corresponding node object versioning information to determine what changes should be reflected by updated local knowledge of the set of Y-dimensional objects and corresponding node object first versioning information; and wherein the node device is configured to receive a next likely Y-dimensional object of the set of Y-dimensional objects based on an analysis from a synchronization prediction component of previous successive at least two requests for Y-dimensional objects made by the application or service, whereby the next likely Y-dimensional object is predictively pre-computed by the other node based on the analysis of the previous successive at least two requests.

6. The node device of claim 5 , wherein the next likely Y-dimensional object of the set of Y-dimensional objects corresponds to image data to display one of multiple turns of a predetermined degree in an image.

7. The node device of claim 5 , wherein, for each object of the set of Y-dimensional objects represented by the updated local knowledge having corresponding node object versioning information, the synchronization analysis component is configured to compare versioning information represented on the node device and other node for a given Y-dimensional object to determine whether a given version represented by the versioning information is desirable to synchronize to the node.

8. The node device of claim 5 , wherein the synchronization protocol does not prescribe any schema of the actual Y-dimensional object data being synchronized between the node device and the other node.

9. The node device of claim 5 , wherein the Y-dimensional objects represent a transform of at least one of geological data to image data or statistical data to business logic.

10. The node device of claim 5 , wherein N is a greater integer than Y.

11. The node device of claim 5 , wherein the multidimensional data is health care related anatomical data.

12. A method for synchronizing related subsets of multidimensional data from a server node to a node via one or more networks in a multi-master synchronization environment, comprising: requesting, by the node, at least one subset of the related subsets of the multidimensional data from the server node using a multimaster synchronization protocol including exchanging synchronization knowledge between the node and the server node of the subsets of the related subsets of multidimensional data represented on both nodes, wherein synchronization knowledge of the node and the server node includes synchronization metadata representing corresponding versions for the at least one subset of the related subsets of multidimensional data represented on the node and server node, respectively, and wherein representation of the synchronization knowledge is independent of multidimensional data type; based on the exchanging of synchronization knowledge, receiving, by the node synchronization changes corresponding to at least one version of the at least one subset of the related subsets of multidimensional data requested by the node, the synchronization changes corresponding to a transform from an N-dimensional form to a Y-dimensional form, N being a different integer than Y; requesting a next subset of the related subsets by the node; receiving the next subset as synchronization changes corresponding to at least one version of the at least one subset of the related subsets of multidimensional data; and receiving a predicted subset of the related subsets by the node where the predicted subset is predicted by the server node as likely to be the subset after the requested next subset based on at least one criterion.

13. The method of claim 12 , further comprising: displaying a sequence of images rotated by a predetermined angle, the sequence of images corresponding to at least one of the related subsets.

14. The method of claim 13 , wherein the receiving of the predicted subset includes receiving a subset of a different quality than the requested at least one subset based on the at least one criterion.

15. The method of claim 13 , wherein the receiving of the predicted subset of the related subsets includes receiving a predicted version of a subset of the related subsets as synchronization changes to an existing version represented on the node.

16. The method of claim 13 , further comprising: receiving a predicted image of a related images requested by the node from the multidimensional data where the predicted image is based on a trend established by at least a prior image of the related subsets.

17. The method of claim 16 , further comprising: receiving a predicted image of a related images requested by the node from the multidimensional data where the predicted image is based on at least a direction of movement of a prior image of a sequence of the related subsets.

18. The method of claim 16 , further comprising: receiving a predicted image of a related images requested by the node from the multidimensional data where the predicted image is based on at least an angular change made with respect to a prior image of a sequence of the related subsets.

19. The method of claim 16 , further comprising: receiving a predicted image of a related images requested by the node from the multidimensional data where the predicted image is based on at least a change made to an eyepoint with respect to a three dimensional graphical object represented by a prior image of a sequence of the related subsets in two dimensions.

20. The method of claim 13 , further comprising: updating the synchronization metadata of the node to include synchronization metadata that indicates knowledge by the node of the at least one version received by the node.

21. The method of claim 12 , further comprising: including anatomical data in at least one of the related subsets; displaying a first image corresponding to the anatomical data viewed at a first eyepoint angle; displaying a second image corresponding to the anatomical data viewed at a second eyepoint angle identical to the first eyepoint angle; and predicting a next image for display based on the first and second eyepoint angles.